JPH0713302U - Receiving cable wiring processing mechanism for magnetic resonance imaging system - Google Patents

Abstract

(57) [Abstract] [Purpose] In a magnetic resonance imaging apparatus in which a top plate on which a subject is laid is advanced and retracted with respect to the apparatus main body, safety of wired reception cables and operability of the apparatus are improved. Improve. [Structure] A top plate 2 is provided with a preamplifier 6 to directly connect a reception cable 4 from a reception coil 3 to the top plate, and a reception cable storage recess 10 is provided so that the top plate can be separated from the table 1 during maintenance. did. Further, for the receiving cable 7 that has entered the table through the top plate, a cable length buffering mechanism 12 such as a cable bear is provided to cause the cable 7 to meander without being bent beyond the allowable bending radius.
In addition, the top plate can be moved back and forth to the full stroke while the required cable length is paid out or accommodated from the meandering part of the cable as the top plate moves back and forth. Then, a receiving cable is wired from the table, which is also a stationary part, to the apparatus main body (stationary part) side.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a wiring processing mechanism of a cable (reception cable) that transmits an NMR signal from a reception coil of a magnetic resonance imaging apparatus, and particularly a top plate on which a subject is laid is moved forward and backward with respect to the main body of the magnetic resonance imaging apparatus. The present invention relates to a receiving cable wiring processing mechanism for a magnetic resonance imaging device that is moved and positioned.

[0002]

[Prior art]

 In a magnetic resonance imaging apparatus (hereinafter, also referred to as an MRI apparatus), it is generated from a subject lying on a tabletop at the time of examination and received by a reception coil placed at a predetermined position on the tabletop. The signal is transmitted through the cable (reception cable) connected to the reception coil, the plug attached to the end of the reception cable, and the receptacle attached to the side surface of the MRI apparatus body (gantry) into which the plug is inserted and the MRI apparatus body. Guided to the preamplifier inside.

Further, the reception signal guided to the preamplifier further passes through a cable (reception cable) from the preamplifier and also passes through a line filter in the main body of the MRI apparatus, and then is sent to a signal processing apparatus outside the main body of the MRI apparatus. To be There are multiple cables from the inside of the main body of the MRI apparatus to the outside of the main body of the MRI apparatus for receiving signals, for preamplifier power supply and for receiving coil identification.

Here, the receiving cable has been wired by fixing an intermediate portion thereof using a velcro or the like at an appropriate position on the top plate according to the position of the receiving coil. In addition, the cable from the preamplifier to the line filter was processed as wiring inside the MRI apparatus main body.

[0005]

[Problems to be solved by the device]

 However, in such a conventional receiving cable wiring process, the receiving cable moves from the top plate (movable part), which is moved back and forth to perform positioning, toward the MRI apparatus main body (stationary part), which does not move at all. Since they are connected by the connector (the plug and the receptacle), the following problems occur. In other words, if the top plate is moved back and forth after connecting the receiving cable with the connector, the receiving cable may be broken depending on the stroke distance, and the safety of the receiving cable is lacking.

Further, when the top plate is moved back and forth, a pulling force is applied to the cable, so that the reception coil is displaced from its predetermined position where it is positioned, or falls from the top plate, or the reception coil is dragged by the reception cable. There is a risk that the coil may harm the subject, and therefore the MRI apparatus main body must be operated with care, and the operability is also reduced.

Further, in order to prevent the above problems to some extent, it is conceivable to make the length of the receiving cable longer than what is normally considered necessary. Has not been solved in the past regarding how to process the excess cable length when the receiver is in a position that does not require much receiving cable length, and operability deteriorates as with the above problem. Oops.

An object of the present invention is to improve the safety of the receiving cable when the top plate is moved back and forth, and also to improve the operability of the MRI apparatus main body, the receiving cable wiring processing mechanism for the magnetic resonance imaging apparatus. To provide.

[0009]

[Means for Solving the Problems]

 The purpose of the above is to provide an apparatus main body, a table installed on the apparatus main body at a predetermined distance and provided with a tabletop on which the subject is placed and which can move back and forth with respect to the apparatus main body, and a table on the tabletop. In a magnetic resonance imaging apparatus including a receiving coil that receives a signal from a mounted subject and a preamplifier that amplifies the signal received by the receiving coil, the preamplifier is a connector for coupling with the receiving coil. The signal cable from the preamplifier, which is provided on the back side of the top plate and has a length that satisfies the advancing and retracting stroke length of the top plate in the table, does not bend beyond the allowable bending radius. Achieved by providing a cable length buffering mechanism that makes the cable meander and feeds or retracts the required cable length from the cable meandering part as the top plate moves back and forth. It is.

[0010]

[Action]

 In such a configuration, the cable from the receiving coil to the preamplifier is coupled to the preamplifier side connector attached to the top plate on which the receiving coil is placed. As a result, the cable connecting the top plate (movable part) to the main unit (stationary part) side disappears, and accidents due to the pulling force on the cable (such as cable tearing, misalignment of the receiving coil, falling from the top plate, etc.). ) Is eliminated, the top plate can be moved back and forth without paying attention to the cable. It is also possible to separate the table and table for maintenance.

The connector is not indispensable from the preamplifier to the line filter (regardless of whether the line filter is provided on the table or the device main body) except that it is required between the receiving coil and the preamplifier. The received signal does not deteriorate due to the relay connector.

In addition, the cable length buffering mechanism causes the signal cable from the preamplifier to meander in the table without bending beyond the allowable bending radius, and is required from the meandering portion of the cable as the top plate moves back and forth. Since the cable length is extended or accommodated, the top plate can be moved back and forth to its full stroke without damaging the cable and leaving the excess cable length unnecessarily left.

[0013]

【Example】

 Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a perspective view showing an embodiment of a receiving cable wiring processing mechanism for a magnetic resonance imaging apparatus according to the present invention. In FIG. 1, reference numeral 1 denotes a table installed on a main body (gantry) of the MRI apparatus (not shown) at a predetermined distance, and an upper portion of the table 1 is slid in a longitudinal direction (direction of arrow A) to allow the apparatus body to be moved. On the other hand, there is provided a top plate 2 for moving the subject on and off.

On the top plate 2, a receiving coil 3 for receiving an NMR signal from an object (not shown) laid on the top plate 2 can be installed at an arbitrary position in the top plate longitudinal direction. . Although the head coil is illustrated as the receiving coil 3 here, a receiving coil for the trunk and the like can be installed on the top plate 2 in addition to this.

A receiving cable 4 is attached to the receiving coil 3, and the receiving cable 4 is attached to the receiving plate 3 so that the receiving cable 4 can be as short as possible so as not to hinder the top plate 2 and the subject is lying on the top plate 2. It is possible to install it on either the left or right side with respect to the advancing / retreating direction A of the top plate 2 or on the left or right side so that it does not become a hindrance when getting on or off, and is easier for the operator. The connectors 5 are attached to both the left and right sides. A space 100 is provided on the rear surface side of the top plate 2 near the connector 5 so as not to keep a distance from the connector 5, and a preamplifier 6 for amplifying a signal received by the receiving coil 3 is attached thereto.

The reception cable 7 for sending the reception signal reaching the preamplifier 6 to the line filter 11 is first connected to the preamplifier 6 via the connector 5 ′ which is necessary when the top plate 2 and the table 1 are separated. When it comes out, it passes through the top plate 2 as it is to reach the receiving cable storage recess 10 and is fixed to the top plate drive bracket 8 for connecting the top plate 2 and the table 1 and moving the top plate 2 back and forth. 16 and is introduced into the top plate driving groove 9 formed in a straight line in the longitudinal direction of the table 1. Here, the receiving cable 7 passes through the cable length buffering mechanism 12 that moves the top plate 2 back and forth to its full stroke without damaging the cable 7 and leaving the excess length of the cable 7 left undisturbed. It is connected to the line filter 11.

Hereinafter, each of the receiving cable storing recess 10 and the cable length buffering mechanism 12 will be described in detail. The receiving cable storage recess 10 is provided for the convenience of separating and connecting the table 1 and the top plate 2 for maintenance of the table 1 and the like. As shown in FIG. It is provided inside the plate 2 and is usually hidden by a lid 13 so as not to obstruct the subject on the top plate 2.

Since the receiving cable 7 is fixed and integrated with the top plate 2, the separability between the top plate 2 and the table 1 is very poor. Therefore, the top plate 2 is separated from the table 1, and the receiving cable 7 is extended and set by a length sufficient to allow maintenance on either the left or right side in the longitudinal direction of the table 1. The extended portion of the cable 7 is usually wound around the pair of cable winding columns 14 in the storage recess 10. The column 14 is formed with a radius not smaller than the allowable bending radius of the receiving cable 7 so that the receiving cable 7 will not be forcibly bent and the inner conductor will not be damaged. This configuration is intended to prevent deterioration of the received signal due to the provision of a relay connector. With the above configuration, a single reception from the preamplifier 6 in the top plate 2 to the line filter 11 in the table 1 is performed. It can be the cable 7.

When the top plate 2 and the table 1 are combined (normal time), the reception cable 7 is wound between a pair of cable winding cylinders 14 and stored in the storage recess 10 as shown in FIG. At the time of separation (at the time of maintenance), the reception cable is sufficiently pulled out from the inside of the storage recess 10 as shown by an arrow B, and then separated. The top plate 2 is attached to the bracket 8 with the top plate mounting screws 15 at this portion. The receiving cable 7 is also fixed to the bracket 8 by the cable fixing portion 16 of this portion, and is introduced into the table 1 from the penetrating portion 17 at the bottom of the top plate 2 through the top plate driving groove 9.

Next, the cable length buffering mechanism 12 will be described in detail with reference to FIG. FIG. 3 is a perspective view showing the inside by removing the top plate 2 from FIG. 1 to form only the table 1 and further cutting a part thereof. As shown in the figure, the reception cable 7 which is output from the preamplifier 6 in the top plate 2 and fixed to the top plate drive bracket 8 is further fixed to the bracket 8 by the cable length buffering mechanism moving side end portion 19. It enters the inside of the cable length buffering mechanism 12 through the opening. The bracket 8 moves back and forth to drive the top plate 2 as indicated by an arrow C by the top plate drive motor 18, but by using the cable length buffering mechanism 12, the cable length buffering mechanism 12 and the bracket 8 are moved. 8 can be linked to move the top plate 2 back and forth.

That is, the cable length buffering mechanism 12 causes the reception cable 7 from the preamplifier 6 to meander in the table 1 without being bent beyond the allowable bending radius, and as the top plate 2 moves back and forth. The cable bears are used here to feed or store the required cable length from the meandering portion of the cable. The cable length buffering mechanism 12 is fixed to the table 1 with only the cable length buffering mechanism fixed side end 20 as a fixed point, and the front end side of the receiving cable 7 from the opening is the cable length buffering mechanism. 12 and is connected to a line filter 11 arranged in the table 1.

In the present embodiment, the cable bear used as the cable length buffering mechanism 12 has a characteristic that it always has a constant curvature and bends only in a constant direction. Even if the plate 2) moves back and forth, the length of the cable bear itself can be kept constant by the linear movement of the bent portion (bending portion of the cable length buffering mechanism) 21. Therefore, no external force is applied to the receiving cable 7 inserted through the inside of the cable bear, and the bending radius of the receiving cable 7 itself can be kept within an allowable value.

As a result, even if the receiving cable 7 entering the table 1 requires a cable length corresponding to the stroke because the top plate 2 moves back and forth, the cable length buffering mechanism (cable It is possible to move the top plate 2 back and forth to its full stroke without sacrificing the cable length too much and damaging the receiving cable 7 or leaving the excess cable length unnecessarily and leaving it in a safe and operable manner. Becomes

Although the line filter 11 is provided in the table 1 in the above-described embodiment, the present invention is not limited to this, and may be provided, for example, on the apparatus main body side. In short, in the present proposal, the receiving cable 7 is not directly connected from the top plate 2 (movable part) side to the device main body (stationary part) side, and the arrangement position of the line filter 11 is not a particular problem. Absent. Since the preamplifier 6 has a weak NMR signal from the receiving coil 3, it is necessary to amplify the receiving cable 4 without lengthening it in order to maintain a predetermined S / N. To be

[0025]

[Effect of device]

 As described above, according to the present invention, it is possible to improve the safety of the receiving cable when the top plate is moved back and forth, and it is also possible to improve the operability of the MRI apparatus main body. There is also an effect that the configuration is extremely simple.

[Brief description of drawings]

FIG. 1 is a perspective view showing an embodiment of a receiving cable wiring processing mechanism for a magnetic resonance imaging apparatus according to the present invention.

FIG. 2 is a perspective view showing a reception cable storage recess in FIG. 1 in an enlarged manner.

FIG. 3 is a perspective view showing the inside by removing the top plate from FIG. 1 to provide only a table and further cutting a part thereof.

[Explanation of symbols]

 1 table 2 top plate 3 reception coil 4 reception cable 5, 5'connector connector 6 preamplifier 7 reception cable 8 top plate drive bracket 9 top plate drive groove 10 reception cable storage recess 11 line filter 12 cable length buffering mechanism ( (Cable bear) 13 Lid 14 Column for wrapping cable 15 Top plate mounting screw 16 Cable fixing part 17 Penetration part 18 Top plate driving motor 19 Cable length buffering mechanism moving side end 20 Cable length buffering mechanism fixing side end 21 Cable length buffering mechanism Bending section

Claims (1)

[Scope of utility model registration request] 1. An apparatus main body, a table provided on the apparatus main body at a predetermined distance and provided with a top plate for sleeping on a subject that can be moved back and forth with respect to the apparatus main body, and the top plate. In a magnetic resonance imaging apparatus including a receiving coil that receives a signal from a subject placed on a bed and a preamplifier that amplifies a signal received by the receiving coil, the preamplifier has a connector for coupling with the receiving coil. The signal cable from the preamplifier, which is provided on the back surface side of the top plate and is set to a length that satisfies the forward / backward stroke length of the top plate, is made to meander in the table without being bent beyond an allowable bending radius. Along with the advancing and retreating movement of the top plate, a cable length buffering mechanism for feeding or storing a required cable length from the meandering portion of the cable is provided. Resonance imaging apparatus for receiving cabling process mechanism.